Electrical switching mechanism



(We 27, 1951 L. W. [MM 2,576,903

ELECTRICAL SWITCHING MECHANISM Filed March 4, 1950 4 Sheets-Sheet l Bnventor Law/s M I'M/w Gttornegi NOV. 27, 1951 L, w [MM ELECTRICAL SWITCHING MECHANISM 4 SheetsSheet 2 Filed March 4, 1950 INVENTOR. FIE Lew/s M [MM A 77'0/P/VE Y L. W, lMM

ELECTRICAL SWITCHING MECHANISM Nuv. 2'7, 195] 4 Sheets-Sheet 5 Filed March 4, 1950 Inmcntor Lin 4s M 1714M Bu 1 WW (Tim-neg Nov. 27, 1951 [MM 2,576,903

ELECTRICAL SWITCHING MECHANISM Filed March 4, 1950 F: E. E m 9/ 95 4 Sheets-Sheet 4 7/ #24 Patented Nov. 27, 1951 2,576,903 ELECTRICAL SWITCHING MECHANISM Lewis W. Imm, Librascope,

Los Angeles, Calif., asalgnor to Incorporated, Glendale, Calif., a

corporation of California Application March 4, 1950, Serial No. 147,678

6 Claims.

The present invention relates to automatic electrical switching mechanism adapted for use in automatic tuning mechanisms for radio receivers, television receivers, and the like. Due to the wide variety of programs nowadays offered on television and radio broadcasts, it has become desirable to have automatic tuning mechanisms permitting pre-selection of a desired sequence of programs for extended periods of time, such as for a whole evening, a whole day or even a whole week, so that a receiver may automatically and at the proper moment be tuned to whatever station the owner may wish to listen at a particular time.

Devices of this type employ usually clock-actuated recording tapes that are divided into longitudinal columns which represent the various broadcasting stations to which a person may wish to listen, and which are longitudinally subdivided into desired time intervals, such as quarter-hour periods. A particular program selection may be recorded on said tape by punching holes in the fields that represent a particular station and a particular time; and by passing the marked tape in properly timed relation past a set of contact fingers, each representing a desired station, normally interrupted electrical circuits may be closed when a contact finger encounters a hole in the tape; the fingers being adapted upon energization to tune an associated receiver to the particular station that is represented by said contact finger.

Broadly, it is an object of the present invention to provide an improved automatic tuning device for radio receivers, television receivers and the like which is capable of tuning such receivers accurately and at the proper times to a preselected sequence of stations.

Another object of the invention is to simplify the construction of tape-controlled automatic tuning devices of the kind referred to.

Yet another object of the invention is to so arrange a device of the type referred to as to provide for the inclusion of a maximum number of control perforations in a minimum length of tape without impairing the accuracy and dependability of the tuning operation controlled by said perforations.

An additional object of the invention is to elimimate the necessity for providing "on and "off perforation fields separate from the tuning perforation fields in the practical performance of a device of the type referred to.

Furthermore, it is an object of the present invention to provide a device of the type referred to that is of compact design so as to require but little space in a radio cabinet or the like.

These and other objects of my invention will be apparent from the following description of the accompanying drawings which illustrate certain preferred embodiments thereof and wherein,

Figure 1 is a circuit diagram of a tape controlled automatic tuning device constructed in accordance with the invention and associated with a radio receiver of the type that is tuned by the switching of a selected one out of a plurality of available condensers into the tuning circuit thereof;

Figure 2 illustrates a portion of the program tape employed in the device of the invention; I

Figure 3 is a circuit diagram similar to Figure 1, representing an automatic tuning device constructed in accordance with the invention and associated with a radio receiver of the type that is tuned by manipulation of a variable condenser;

- Figure 4 is a bottom plan view of a practical embodiment of the automatic tuning device represented by Figure 3;

Figure 5 is a side elevation of the same device viewed in the direction of the arrows 5-5 in Figure 4;

Figure 6 is a horizontal section through the same device taken along line 66 of Figure 5;

Figure 7 is a fragmentary front elevation of part of a radio receiver with the front panel removed to reveal the manner in which an automatic tuning device of the type represented by Figures 3 to 6 is associated with the tuning means of the receiver;

Figure 8 is a plan view of the apparatus illustrated in Figure 7; and

Figure 9 is a detail view illustrating part of the apparatus shown in Figure 8 by way of a vertical section taken along line 9-9 of said figure and viewed in the direction of the arrows associated with said line.

Having first reference to Figure 1, the leads TC represent the tuning circuit of a radio receiver that may selectively be tuned to four different broadcasting stations by switching any one of four different condensers Ill, 20, 30 and 40 into said tuning circuit. For this purpose each of said condensers may individually be switched across the leads TC by normally open switches H, 2|, 3| and 4|, respectively. Normally deenergized relays I2, 22, 32 and 42, one associated with each of said switches, are arranged upon energization to close, said switches, and said relays may be individually connected across a suitable source of D. C. voltage, such as the rectifier 50.

awaeoa that is shunted across the secondary 6| of a step-down transformer 62 the primary 63 of wl..ch is connected across the leads of the main power line 54. Ordinarily. however, the connection between the source of power and the individual relays is interrupted by a selector including a program control element such as a tape 55 of insulating material, such as paper, and may be closed or reopened in accordance with a pattern of holes or perforations 56 which the owner of the radio set may have punched into said tape to record a particular program selection.

Having specific reference to Figure 2, said tape 55 has marked thereon four longitudinal columns F, C, K and N, each representing a particular broadcasting station. In addition the tape is subdivided by numerous transverse lines 51 into equal time intervals of preferably fifteen minutes each, as indicated in the left marginal column of said tape. The right marginal column of the tape is used to mark outlarger time intervals, such as the days of the week or the preand after-meridial halves of the days. It will be understood that a program selection may easily be recorded on said tape for a full day, a week or even a month, depending upon the length of the program tape, by punching holes into selected ones of thefields formed by the columns that represent the stations and the transverse lines which mark the time in fifteen minute intervals.

Reverting to Figure 1, the described program tape 55 is trained around and driven by a drum or cylinder 58 of a metallic conductive material that possesses a wreath of sprocket teeth 59 arranged centrally around its peripheral surface which engage a row of corresponding perforations 60 provided along the center line of the tape (Figure 2). Arranged for sliding contact with the outer surface of the tape 55 as it engages and is advanced by said drum, are four contact fingers I3, 23, 33 and 43, each aligned with one of the station columns marked on the tape and conductively connected with one terminal of the particular relay I2, 22, 32 or 42, respectively, that is adapted to switch the particular condenser I6, 20, 30 or into the tuning circuit TC which will tune the radio set to the station represented by said column; a common lead 6| connects the other terminals of all of said relays to one terminal of the source of power 50, as shown.

A synchronous motor 85 is arranged to turn the drum 58 at a speed corresponding to the station-change intervals marked on the program tape 55; that is to say, if the distance between two transverse lines 5'! represents a time interval of, say, fifteen minutes, as previously indicated, the drum is arranged to advance the tape over said distance in exactly fifteen minules. Thus, whenever one of the contact fingers I3, 23, 33 or 43 encounters a hole 56 in the tape 55 and through said hole contacts the conductive drum 58 underneath, it partially closes a circuit through its respective relay, so that whenever the drum 5B is connected to the opposite terminal of the source of power 50, the switch that tunes the radio receiver to the particular station represented by the column within which the particular hole is situated will be closed.

Means including an activating switch are provided for transiently energizing the drum 58 at intervals corresponding to the aforesaid stationchangc intervals. This means comprises a conductor it having a permanent connection with drum 58 and adapted to be connected through an activating switch l3 and conductor Eda, with the terminal of the source of power to opposite that to which the fingers I3, 23, 33 and es are connected as previously described. The synchronous motor 55 which turns drum 58 also turns a cam ll which closes activating switch 13 at intervals corresponding to said station change intervals, reopening said switch substantially immediately, since the relays involved will 0 rate instantly.

Aside from operating tuning switches, the rela s H, 22, 32 and 42 are arranged, upon energi ation as above described, to close additional switches M, 24, 34 and 44, respectively, all of which are adapted to connect an additional relay 65 across the source of voltage 58. Said relay 66 in turn is arranged upon energization to close two switches Bl and 68, respectively. The switch 61 is arranged to control the power supply to the radio set and for this purpose may be situated within one of the leads of the previously mentioned power supply line 54. Thus, whenever one of the tuning control relays I2, 22, 32 or 42 is activated by switch 13, it respective contact finger having encountered a perforation 56 in the program tape 55, said relay is not only effec= tive to tune the radio receiver to a predetermined station in the manner previously described, but in addition turns on the radio receiver by activating the relay 66 which closes the power supply switch 61.

The second switch 68 is arranged upon closing to perpetuate the conditions established by energization of a tuning relay for a period equal to the individual time intervals marked out on the program tape, even though the steady advance of said tape will move the perforation that initiated the above-described sequence of operations, beyond the contact finger and thus interrupt the flow of current through the initially activated tuning relay. For this purpose said switch 66 is arranged to partially close a holding circuit 68 which connects the power control relay 66 and any activated tuning relay through its associated switch 14, 24, 34 or 44, respectively, across the source of voltage 58, independently of any connection established by contact fingers through a perforation in the program tape 55. Completion of closing of the holding circuit is accomplished by means including a second switch 16 which constitutes a holding switch and is actu ated by the cam ll so as to be closed just prior to the opening of activating switch 13 by said cam, such timing of its closure being important because if activating switch 13 should be opened before closure of holding switch 18, the relay 66 would be deenergized and its armature 68 would interrupt the holding circuit. Equivalently, however, the employment of a delayed action relay, as relay 66, would avoid the necessity for so timing the opening of activating switch it with the closing of holding switch 10. With either arrangement both the initially activated relays, i. e., the tuning relay and the power control relay, remain energized after the particular perforation that initiated the described sequence of operations has advanced beyond the reach of its correlated contact finger, and in this manner the receiver is maintained in operative condition and tuned to the station represented by said first encountered perforation.

After a quarter hours performance, however, the described arrangement must be restored to a condition in which the program tape It may resume control of the tuning circuit and the power supply of the radio receiver in order that the receiver may be tuned to another station if there is a perforation in another station column of the program tape, or may be completely turned off if there is no perforation whatsoever within the space representing the next fifteen minutes.

For this purpose the normally closed holding switch is opened momentarily at the predetermined station change intervals corresponding to the time intervals marked on the program tape 55; that is to say, in the embodiment of the invention which I am about to describe, the cam II is arranged to open the holding switch It every fifteen minutes for a very brief period of time. Unless there is a perforation in position to permit one of the fingers It, 23, 33, 48 to contact drum 58 whenever said holding switch 10 is opened, current will cease to flow through the relay 88 and switches 61 and 68 will open. The power supply to the radio receiver is thus turned off and the interruption of the holding circuit 69 temporarily effected by switch 70 is rendered permanent. In addition current ceases to flow through whatever tuning relay was initially energized so that both the switches controlled by said tuning relay open. This cuts the tuning capacity controlled by said relay from the tuning circuit of the radio receiver and in addition breaks the holding circuit 69 at a third place. Hence when the rotary timing cam H permits the switch 10 to close again, the same conditions are established in the described system that existed initially.

Under these conditions, if there is no new perforation in the tape opposite to any one of the feeler fingers, the radio set will simply terminate performance and remain silent for at least another fifteen minutes. However, if there is a perforation in the tape which establishes contact between the drum and any of the feeler arms at this moment, the previously described sequence of switching operations is again initiated and will instantly tune the set to a newer to the same station, as the case may be, and supply it with power, and thereafter maintain these settings automatically for a time interval of fifteen minutes in the manner previously described. Thus, the arrangement of my invention is such that it does not require special "on perforation fields on the program tape to commence operation of the receiver whenever the automatic tuning control device has set the tuning means of the receiver to a desired station; nor are special "ofP perforation fields required to terminate operation of the receiver whenever a program has been completed and the contact fingers encounter no perforations in the subsequent time interval marked on said tape.

To avoid any interruption in the performance of the radio receiver that may be caused by the above-described resetting and retuning operations and which may be especially annoying in programs that extend over several fifteen minute intervals, the control cam H is preferably arranged to close switch 13 shortly before it opens switch 10, as well as to maintain said switch 13 in closed position until the switch H! has again been closed, as previously described. Thus, if the new time interval on the program tape contains a hole in the column that contained the hole which determined the initial setting of the radio set, the current supply to the active tuning of the radio receiver every l5 minutes relay is uninterruptedly maintained through switch 13, the conductive cylinder 58 and the feeler finger that engages said new hole during the brief period when the timing cam 1| opens the resetting switch It. Hence, the capacity controlled by said relay is kept in the tuning circuit of the radio set and the power supply to the set is maintained without any interruption, so that there will be no disturbance of the program as the automatic resetting switch 10 tests the setting against the program recorded on the tape 50.

An additional advantage of the described operation of the switch 13 at accurately timed station-change intervals is the re-tuning of the receiver to a new station at exactly the moment when said switch 13 is being closed, for previously inactive tuning relays cannot be energized to tune the radio set to a new station until switch 13 is closed, since no current can previously reach the tuning relays even though an inaccurately placed perforation in the tape may prematurely have established contact between the conductive drum and a feeler finger. Thus, the exact position of a. perforation in the tuning tape is immaterial for the commencement of a new program, and there is no danger that a badly placed perforation may start operation of another tuning relay and switch another tuning condenser into the tuning circuit .of the radio set before the condenser that tuned the radio to a previously selected station has been cut out. Hence, the time intervals marked on the program tape may be made very narrow and the program drum be operated at a very low speed permitting a maximum number of control perforations to be recorded on a given length of tape without impairing the accuracy and dependability of the tuning operations control ed by said perforations.

The automatic radio control arrangement illustrated in Figure 3 is in principle the same as the arrangement illustrated in Figure 1 described in detail hereinbefore, and equivalent components in both arrangements are therefore identified by the same reference numerals. The arran ement illustrated in Figure 3 differs from the arran ement illustrated in Figure 1 in that he automatic tuning control mechanism of the former is adapted for operation with a radio receiver that is tuned by means of a variable condenser, while the au omatic tuning control mec anism of the latter is adapted for operation with a radio receiver that is tuned by the addition of se ected ones out of a pluralitv of fixed condensers into its tuning circuit. Hence, while in the initially described arrangement the contact fin ers I3. 23, 33 and 43 are arranged to close circuits for re ays that switch condensers into the tuning circuit of the radio set, the contact fingers I3. 23. 33 and 43 of the arran ement illustrated in Figure 3 are all adapted to connect a rev rsible D. C. motor separatel across the source of volta e 50. Said motor drives the shaft of a variable tuning condenser (not shown) so t at said condenser is turned whenever a hole in the program tape 55 establishes con act between the re o vin drum B8 and one of the contact fin rs I3. 23. 33 or 43.

Means ar provided to arrest t e operation of the motor 80 whenever the variable condenser has been turned to a point where it tune the radio set to the station represented by the program tape column in which the hole is located that initia ed operation of the tuning motor. For this urpose, each of the separate power c rcuits that may be established through the tuning motor 80 by the various contact fingers contains a normally closed motor stop switch I5, 25, 35 and 45, respectively, and said motor 80 is arranged to drive a tuning control shaft 8| represented by a broken line in Figure 3, upon which are mounted four control cams I6, 26, 36 and 46, respectively, that are adapted to open the switches I5, 25, 35 and 45, respectively, in angularly displaced positions corresponding to the different angular positions which the rotor of the tuning condenser must assume in setting the radio set to the stations marked out on the program tape; Thus, whenever a particular contact finger initiates operation of the tuning motor, said motor will operate until the normally closed motor stop switch connected to said particular contact finger is thrown open by its associated control cam, whereupon the motor, the control shaft and the condenser shaft will come to a halt with the condenser in a position that tunes the radio set to the desired station.

The tuning motor 89 is of the reversible type, as previously indicated, and is associated with a reversing switch 82 that is adapted upon actuation to connect the motor directly and in opposite polarity across the source of voltage 59. An

actuating arm 83 secured to the cam shaft 8| is arranged to actuate said switch and thus reverse the motor whenever said shaft has made a complete revolution from a predetermined initial position. Thus, if the program tape directs the described tuning control mechanism to tune the radio set to a desired station from a position of the cam shaft 8| in which the actuating element of the control cam corresponding to said desired station has passed its correlated motor stop switch, the motor will operate in the initially assumed direction until the cam shaft reaches its full cycle position, at which moment the arm 83 actuates the switch 82 and reverses the operation of the motor. When the motor turns in opposite direction, the control cams I6, 26, 36 and 46 are unable to arrest its operation because the motor is now connected directly across the source of power 50 instead of through one of the stop switches I5, 25, 35 or 45, respectively. Thus, though the cams will consecutively open all the motor stop switches for brief periods of time, the motor will continue to operate until the cam shaft 8| has made a complete revolution and returns to its full cycle position: in this position the aforementioned arm 83 will again actuate the reversing switch 82 and re-connect the tuning motor in the initially described manner across the source of voltage through whatever motor stop switch has its associated contact finger in conductive contact with the program drum 58. As a result thereof the direction of operation of the tuning motor is again reversed and it will now turn in its original direction until the particular stop switch through which its power circuit is closed is thrown open by its associated control cam leav-' ing the receiver tuned to the particular station represented by the column which contained the perforation that initiated the described tuning operations. In view of the described arrangement, all condenser settings are effected from one direction only, and since it is thus only necessary to make allowance for overthrow of the condenser shaft in one direction, the automatic tuning mechanism of my invention secures highest tuning accuracy with a minimum of components.

Referring again to Figure 3, the aforementioned motor stop switches I5, 25, 35 and G5 are two-way switches, as shown, in that their control arms are adapted to close individual circuits through the source of voltage 50 and the power control relay 66 whenever they are actuated by their respective control cams to interrupt the power circuit of the tuning motor 89. As in the case of the automatic tuning device illustrated in Figure 1, the relay 66 shown in Figure 3 is adapted, upon energization, to close the power switch 61 of the radio set and a holding switch 68 which completes a circuit 69 including conductor and switch 19 which is operated in the same way as in the embodiment of Figure 1 to maintain the relay 66 energized and thus maintain the receiver in operation after the perforation that initiated the above described sequence of tuning operations has passed its correlated contact finger and the circuit initially established through said control relay 66 is interrupted by reopening of switch 10 by cam H.

The radio set is not energized until the tuning operations have been completed and is therefore silent while said tuning operations proceed. As in the arrangement described in Figure 1, the holding circuit 69 established by closure of switch 68 contains an ordinarily closed re-setting switch 10 which is momentarily thrown open at station change intervals by the timing cam H to place the automatic tuning mechanism into a condition where it may resume control of the receiver to switch it off if there should be no perforation in the next time interval of the program tape, or to tune it to another station if a perforation in another column of the program tape 50 should have moved into position opposite one of the contact fingers. The arrangement illustrated in Figure 3 also comprises the normally open switch 13 within the lead 14 which connects the conductive drum 58 to source of voltage 59, which switch is closed shortly before the resetting switch 10 is opened and is maintained in closed condition until said re-setting switch is closed again, to avoid interruption of a program that extends over a multiple of the time intervals marked on the program tape. In the case of the present embodiment it is important, however, that the cam H be proportioned so as to maintain switch 13 closed for a period long enough to maintain motor in operation for the longest interval required to tune the condenser from one station to any other.

Figures 4 to 9, inclusive, illustrated a practical device constructed in accordance with the embodiment of the invention illustrated in Figure 3 to control the performance of a radio receiver of the type tuned by a variable condenser. Said device comprises a chassis 96 composed of a pair of vertically spaced horizontal panels 9| and 92 that are connected at their four corners by studs 93 surrounded by spacer sleeves 94. Arranged below and supported from the lower panel 92 is the revolving drum or cylinder 58 which may be of aluminum or some other suitable material and which is firmly mounted upon a vertical shaft 95 that extends through both the panels 9| and 92 as shown in Figure 5. Likewise supported from the lower panel 92 is the synchronous motor 65 (Figure 4) which has a vertically tz, as best shown in Figure 6. As previously explained, said switches are arranged to be jointly actuated by the cam II at predetermined intervals of say 15 minutes in such a manner that the switch 13 is closed slightly before the switch 10 is opened and is reopened a brief moment after switch I has been closed again.

For this purpose the switch 13, illustrated as a standard form of Microswitch, is provided with a one-armed actuating lever I0I that is riveted at one end to the casing I02 of said switch and which bears with an intermediate point against a push button I03 that actuates a switch arm (not shown) which is spring biased to hold the switch in closed position. The switch I0, on the other hand, is provided with a twoarmed actuating lever I05 of the bell crank type that is pivotally supported from the outer casing I06 of said switch.. Said actuating lever I05 has a long arm I0'I that overlies with its free end the free end of the aforementioned actuating lever MI, and a backwardly bent short arm I08 that bears with its free end against a push button I09 adapted to actuate a switch arm (not shown) which is spring biased to hold theswitch I0 open.

Pivoted to the free end of the long lever arm i0! is a cam follower roller II 0 that engages the edge of the aforementioned actuating cam ii. Said cam has a circular edge III that is interrupted by two rounded notches H211 and H2?) provided at diametrically opposite points. The circular edge of the cam II is arranged to depress both the arm I01 of the actuating lever I05 and actuating lever IOI to such an extent that the push buttons I03 and I09 maintain the switches I0 and 13 in closed and open positions, respectively. However, when the cam follower roller I I0 drops into one of said notches during rotation of the cam II the pressure against the switch actuating levers I05 and IN is momentarily released, and the push buttons I03 and I09 are free to move into elevated positions in which switch I0 is open and switch 13 is closed.

Due to the fact that'the lever arm I 0| isshorter than the lever arm I01 and due to the fact that the distance between the free end of the former lever and the point where it bears against "its associated push button I03 is shorter than the distance between the free end of the latter lever and the point where said latter lever bears against the push button I09, the described drop of the cam follower roller IIO into a notch II2a or II2b causes the lever arm IOI to rise over a greater angular distance than the lever arm I01, and hence permits the push button I03 to rise faster than the push button I09 so that the former will permit closure of its associated switch I3 a very brief moment earlier than the latter will permit opening of its associated switch and vice versa as the cam follower roller H0 is forced to climb back onto the circular edge II I of the cam II the push button I09 will close its switch I0 a very brief moment earlier than the push button I03 will open its switch 13. Hence, rotation of the cam II causes the switches I3 and I0 to close and open, respectively, in the order named whenever the cam follower roller I I0 drops into one of the notches I I2a or II2b, and will briefly thereafter cause said switches to close and open in the reverse order.

To effect the described switching operations in intervals of 15 minutes, the motor 65 is arranged to drive the switch-actuating cam II at a speed of half a revolution for every 15 minutes, for which reason a reduction transmission may be interposed between the motor and its power takeoff shaft 91 which is encased in a flat oval housing that is partly visible at I I4 in Figures 4 and 5.

The motor 65 is also arranged to drive the revolving drum 50 at a speed advancing it with every 15 minutes over an arc corresponding to the individual time intervals marked on the program tape 55. Since this requires an additional reduction in speed as compared with the speed of the switch-actuating cam II, a small gear H5 is keyed to the power take-off shaft 91 of the motor at a point below the switch actuating cam II (Figures 5 and 6) and meshes with a large gear H5 that is keyed to the previously mentioned shaft 95 of the revolving program drum 58.

Bolted to the lower panel 9| of the chassis 90 at a place adjacent to the revolving drum 58 is a casing I20 of insulating material that may be of rectangular shape, as shown, and which is arranged to house and shelter the loose folds of the program tape 55. For this purpose the remote side wall I2I of the casing I20 is provided with a vertical slot I22 through which the program tape 55 is arranged to leave the interior of the casing I20 to be returned into said casing through another slot I23 provided in the side wall I24 that is nearest to the revolving drum. To disengage the tape 55 from the sprocket teeth of the drum 58 as it is fed back into the casing I20, a lip I25 of insulating material may project outwardly from below slot I23 adjacent the surface of the drum, as shown in Figure 4. If desired, the tape 55 may be formed in a continuous loop having a weeks program selections punched therein. Such a loop may be fed continuously through the casing I20 and with pre-folding occupies little space.

The contact fingers I3, 23, 33 and 43 are held in a block I 21 of insulating material that is bolted to a vertical shaft I28 which extends through and is journaled in the panels SI and 92 of the chassis 90. At a point intermediately of said panels the shaft I28 carries an arm I29 as shown in Figure 6. A contraction spring I30 tensioned between the free end of said arm and a suitably located stud I3'I yieldably urges the shaft I28 in clockwise direction, as viewed in Figure 4 and thus presses the tips of the contact fingers yieldably against the program tape 55 at a point where said tape lies fiat against the surface of the revolving drum 58. A cable I32 conducts the leads of the contact fingers I3, 23, 33 and 43 to a connection block I33 which has four contact screws to which are connected the leads of the tuning motor (Figure 8), and of the switches I5, 25, 35 and 45 in the manner illustrated in Figure 3. The control relay 66 and the two switches 61 and 68 controlled by said relay, and also the rectifier 50 and the transformer 53, are likewise supported from the lower panel of the chassis as best shown in Figure 4.

Figure 7 is a fragmentary front elevation of a rauio receiver tuned by a variable capacity and illustrates the manner in which the tuning motion of a rotary condenser is controlled by the device shown in Figures 4, 5 and 6. The numeral I40 designates the condenser shaft and firmly mounted upon said shaft is a disk I4I over which is trained a cable I42 that connects said disk operatively with the indicator of the tuningdial (not shown) to visibly indicate on said dial the position of the tuning condenser. The condenser shaft I40 is driven from the tuning motor 80 (Figure 8) through a suitable train of reduction gears. Referring to both Figapropos area 7 and 8, a small gear I48 is keyed to the power shaft I44 of the motor 80 and meshes .with an idler gear I45 of large diameter that is firmly mounted upon a stub shaft I48 which is suitably journaled in the front wall of the receiver frame I41. Likewise mounted upon said stub shalt I48 for rotation in unison with the idler gear I45 is another small gear I48 which meshes with another gear I48 of large diameter that is firmly mounted upon the previously described cam shaft 8I ..which extends transversely across the frame of the radio receiver and is suitably journaled in the front and rear walls thereof, as shown in Figure 8. Said gear I49 sitions in which they lie within individual power circuits for the tuning motor 80 and from which they may be urged into positions in which they close individual circuits through the control relay 86 as previously explained. Riveted to the housings l5a, 25a, a and a of the aforementioned double throw switches are resilient ac-- tuator arms I8, 28, 38 and 48, respectively, which overlie push buttons I9, 28, 89 and 48 that bear against the yieldable contact arms I1, 21, 31 and 41 of the switches I5, 25, 35 and 45, respectively. Pivoted to the free ends of said actuator arms are rollers l8a, 28a, 38a and 48, respectively, that extend into the range of action of the camming arms, as best shown in Figure 9. Whenever a camming arm strikes against the roller on the actuating arm of the switch which it controls, the push button of said switch is depressed and causes its contact arm to open the motor circuit in which it is situated and close a power circuit through the relay 55. As a result thereof the motor, if it was powered through said switch, comes to a halt and leaves the receiver tuned to the station represented by the particular camming arm. and the relay 58 is energized to close the power switch 81 of the radio receiver and activate the holding circuit 58, as previously described. Whenever the motor resumes operation, however, and causes the camming arm to release its coacting push button, the contact arm of the particular switch returns to itsoriginal position in which it forms part of a power circuit through the motor 88 and interrupts the previously established circuit through the relay 66.

Suitably supported from the front wall or the receiver frame I4! is the previously described motor reversing switch 82 which may be of the toggle type and which has an actuating arm 82a that extends into the range of action of two angularly displaced studs I55 and I56 projecting laterally from the face of the aforementioned gear I49 that drives the cam shaft 8|. The stud I55 may mark the full cycle position oi'the cam shaft 8| while stud I55 is angularly displaced from stud I55 by an are which corresponds to a full sweep of the tuning condenser over all the stations to which the control device of my invention is capable of tuning the receiver, and

which amounts to about 300 degrees in the exemplary embodiment of the invention illustrated in 'Figures 7 and 8. Thus, whenever the cam shait has turned over an angle corresponding to the full tuning range covered by the control device of the invention, the stud I56 strikes against and actuates the arm of the toggle switch which connects the tuning motor directly across the source of power and causes instantaneous reversal in the operation of said motor as previously described; and after the cam shaft all has made nearly a full revolution in opposite-direction, the

other stud I55 strikes against the actuating arm 82a of the toggle switch from the opposite side which re'versestbe operation of the tuning motor again and reconnects the motor into the described motor control system. Thus the camshaft 8| turns again in. its initial direction and when one of the camming arms actuates the motor stop switch over which the motor is energized at the moment, the tuning operation comes to a halt with the receiver set to the station repre sented by the tape perforation that initiated the described tuning operations. a t

The described device is compact and simple in construction and may readily be installed in any radio receiver, television receiver, or the like. When installed, the device permits desired programs to be selected for a whole day, a whole week or evena whole month, and theprogram selections may be recorded on its program tape. with a minimum of eiiort since it is unnecessary, to provide special perforations in the tape to activate the receiver whenever a. desired per- 5 formance is to commence or to switch it 0113 whenever a desired program or sequence of programs has been concluded. Moreover, it is not necessary to be particularly careful in punching the program perforations into the tuning fields of the tape since the device of the invention is such as to tune in the desired stationsaccurately and at the proper moment, disregarding small irregularities in the positions of the perforations such as are bound to occur when laying out a program selection for extended periods of time, such as weeks or months.

While I have described my invention with the aid of a practical embodiment thereof, it will be understood that I do not wish to be limited to the particular constructional details shown and described that may be departed from without departing from the spirit and scope of myi'nvention.

What I claim is: 3

1. An electrical switching system comprising a selector including switching means selectively operable to effect an electrical connection between a supply line and any of a plurality of control lines, an activating switch operable to .60 efiect an electrical connection between said supply line and a source of electrical energy, a power line adapted for connection to electrically powered apparatus and including a power con:

trol switch, means including a relay energized upon connection of any of said controllines to said source of electrical energy for closing said power control switch, means including a holding switch operable to close a circuit through said relay shunting said selector, and a common actuating device for said activatin and holding switches operable to close said holding switch and thereafter open said activating switch.

2. An electrical switching system comprising a selector including switching means selectively I5 operable to eflect an electrical connection be- 13 tween a supply line and any of a plurality of control lines, an activating switch operable to eflect an electrical connection between said supply line and a, source of electrical energy, a power line adapted for connection to electrically powered apparatus and including a power control switch, means including a relay energized upon connection of any of said control lines to said source of electrical energy for closing said power control switch, means including a, holding switch operable to close a circuit through said relay shunting said selector, and a common actuating device for said activating and holding switches operableto close said activating switch, open said holding switch, close said holding switch, and open said activating switch, seriatim.

3. An electrical switching system comprising a selector including switching means selectively operable to effect an electrical connection between a supply line and any of a plurality of control lines, a program control element associated with said selector for controlling said switching means according to a preselected sequence, an activating switch operable to effect an electrical connection between said supply line and a source of electrical energy, a power line adapted for connection to electrically powered apparatus and including a power control switch, means including a relay energized upon connection of any of said control lines to said source of electrical energy for closing said power control switch, means including a holding switch operable to close a circuit through said relay shunting said selector, and a common actuating device for said activating and holding switches operable to close said holding switch and thereafter open said activating switch.

4. An electrical switching system comprising a selector including switching means selectively operable to effect an electrical connection between a supply line and any of a plurality of control lines, a program control element associated with said selector for controlling said switching means according to a preselected sequence, an activating switch operable to effect an electrical connection between said supply line and a source of electrical energy, a power line adapted for connection to electrically powered apparatus and including a power control switch, means including a relay energized upon connection of any of said control lines to said source of electrical energy for closing said power control switch, means including a holding switch operable to close a. circuit through said relay shunting said selector, and a common actuating device for said activating and holding switches operable to close said activating switch, open said holding switch, close said holding switch, and open said activating switch, seriatim.

5. An electrical switching system comprising a selector including switching means selectively operable to effect an electrical connection between a supply line and any of a plurality of control lines, a program control element associated with said selector for controlling said switching means according to a preselected sequence, an activating switch operable to elTect an electrical connection between said supply line and a source of electrical energy, a power line adapted for connection to electrically powered apparatus and including a power control switch, means including a relay energized upon connection of any of said control lines to said source of electrical energy for closing said power control switch, means including a holding switch operable to close a circuit through said relay shunting saidselector, a common actuating device for said activating and holding switches operable to close said holding switch and thereafter open said activating switch, and a common driving means for said selector and said actuating device.

6. An electrical switching system comprising a selector including switching means selectively operable to effect an electrical connection between a supply line and any of a plurality of control lines, a program control element associated with said selector for controlling said switching means according to a preselected sequence, an activating switch operable to effect an electrical connection between said supply line and a source of electrical energy, a power line adapted for connection to electrically powered apparatus and including a power control switch, means including a relay energized upon connection of any of said control lines to said source of, electrical energy for closing said power control switch, means including a holding switch operable to close a circuit through said relay shunting said selector, and a common actuating device for said activating and holding switches operable to close said activating switch, open said holding switch, close said holding switch, and open said activating switch, seriatim.

LEWIS W. IMM.

No references cited. 

